Summary
Glutamate was applied iontophoretically in short (10 to 20 ms) pulses through micropipettes of 10 to 30 MΩ resistance to synaptic spots on crayfish muscle fibres. The resulting glutamate induced postsynaptic currents (g-EPSCs) were measured using a voltage clamp of the muscle fiber. Dose-response curves for the action of glutamate were constructed summing g-EPSCs elicited by two separate iontophoretic pipettes at the same synapse. The dose-response curves showed a log log slope of 2, the g-EPSC rising with the second power of the glutamate concentration.
Following a small conditioning g-EPSC with a delay of up to 1 s, a second g-EPSC was potentiated. For short delays maximum potentiation was 3-fold. For large g-EPSCs potentiation gave way to desensitization: following a large conditioning g-EPSC a second one was reduced for delays of up to several seconds. Possible mechanisms of potentiation and desensitization are discussed.
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This work was supported by the “Deutsche Forschungsgemeinschaft” (grant Du 24/14).
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Dudel, J. Potentiation and desensitization after glutamate induced postsynaptic currents at the crayfish neuromuscular junction. Pflugers Arch. 356, 317–327 (1975). https://doi.org/10.1007/BF00580005
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DOI: https://doi.org/10.1007/BF00580005